ubelt.util_dict module¶
Functions for working with dictionaries.
The dict_hist()
function counts the number of discrete occurrences of hashable
items. Similarly find_duplicates()
looks for indices of items that occur more
than k=1 times.
The map_keys()
and map_vals()
functions are useful for transforming the keys
and values of a dictionary with less syntax than a dict comprehension.
The dict_union()
, dict_isect()
, and dict_subset()
functions
are similar to the set equivalents.
The dzip()
function zips two iterables and packs them into a dictionary
where the first iterable is used to generate keys and the second generates
values.
The group_items()
function takes two lists and returns a dict mapping
values in the second list to all items in corresponding locations in the first
list.
The invert_dict()
function swaps keys and values. See the function docs
for details on dealing with unique and non-unique values.
The ddict()
and odict()
functions are alias for the commonly used
collections.defaultdict()
and collections.OrderedDict()
classes.
-
class
ubelt.util_dict.
AutoDict
[source]¶ Bases:
dict
An infinitely nested default dict of dicts.
Implementation of Perl’s autovivification feature.
- SeeAlso:
AutoOrderedDict
- the ordered version
References
Example
>>> import ubelt as ub >>> auto = ub.AutoDict() >>> auto[0][10][100] = None >>> assert str(auto) == '{0: {10: {100: None}}}'
-
to_dict
()[source]¶ Recursively casts a AutoDict into a regular dictionary. All nested AutoDict values are also converted.
- Returns
a copy of this dict without autovivification
- Return type
dict
Example
>>> from ubelt.util_dict import AutoDict >>> auto = AutoDict() >>> auto[1] = 1 >>> auto['n1'] = AutoDict() >>> static = auto.to_dict() >>> assert not isinstance(static, AutoDict) >>> assert not isinstance(static['n1'], AutoDict)
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class
ubelt.util_dict.
AutoOrderedDict
[source]¶ Bases:
collections.OrderedDict
,ubelt.util_dict.AutoDict
An infinitely nested default dict of dicts that maintains the ordering of items.
- SeeAlso:
AutoDict
- the unordered version of this class
Example
>>> import ubelt as ub >>> auto = ub.AutoOrderedDict() >>> auto[0][3] = 3 >>> auto[0][2] = 2 >>> auto[0][1] = 1 >>> assert list(auto[0].values()) == [3, 2, 1]
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ubelt.util_dict.
dzip
(items1, items2, cls=<class 'dict'>)[source]¶ Zips elementwise pairs between items1 and items2 into a dictionary.
Values from items2 can be broadcast onto items1.
- Parameters
items1 (Iterable[A]) – full sequence
items2 (Iterable[B]) – can either be a sequence of one item or a sequence of equal length to
items1
cls (Type[dict], default=dict) – dictionary type to use.
- Returns
similar to
dict(zip(items1, items2))
.- Return type
Dict[A, B]
Example
>>> assert dzip([1, 2, 3], [4]) == {1: 4, 2: 4, 3: 4} >>> assert dzip([1, 2, 3], [4, 4, 4]) == {1: 4, 2: 4, 3: 4} >>> assert dzip([], [4]) == {}
-
ubelt.util_dict.
ddict
¶ alias of
collections.defaultdict
-
ubelt.util_dict.
dict_hist
(items, weights=None, ordered=False, labels=None)[source]¶ Builds a histogram of items, counting the number of time each item appears in the input.
- Parameters
items (Iterable[T]) – hashable items (usually containing duplicates)
weights (Iterable[float], default=None) – Corresponding weights for each item.
ordered (bool, default=False) – If True the result is ordered by frequency.
labels (Iterable[T], default=None) – Expected labels. Allows this function to pre-initialize the histogram. If specified the frequency of each label is initialized to zero and
items
can only contain items specified in labels.
- Returns
dictionary where the keys are unique elements from
items
, and the values are the number of times the item appears initems
.- Return type
dict[T, int]
Example
>>> import ubelt as ub >>> items = [1, 2, 39, 900, 1232, 900, 1232, 2, 2, 2, 900] >>> hist = ub.dict_hist(items) >>> print(ub.repr2(hist, nl=0)) {1: 1, 2: 4, 39: 1, 900: 3, 1232: 2}
Example
>>> import ubelt as ub >>> items = [1, 2, 39, 900, 1232, 900, 1232, 2, 2, 2, 900] >>> hist1 = ub.dict_hist(items) >>> hist2 = ub.dict_hist(items, ordered=True) >>> try: >>> hist3 = ub.dict_hist(items, labels=[]) >>> except KeyError: >>> pass >>> else: >>> raise AssertionError('expected key error') >>> weights = [1, 1, 1, 0, 0, 0, 0, 1, 1, 1, 1] >>> hist4 = ub.dict_hist(items, weights=weights) >>> print(ub.repr2(hist1, nl=0)) {1: 1, 2: 4, 39: 1, 900: 3, 1232: 2} >>> print(ub.repr2(hist4, nl=0)) {1: 1, 2: 4, 39: 1, 900: 1, 1232: 0}
-
ubelt.util_dict.
dict_subset
(dict_, keys, default=NoParam, cls=<class 'collections.OrderedDict'>)[source]¶ Get a subset of a dictionary
- Parameters
dict_ (Dict[A, B]) – superset dictionary
keys (Iterable[A]) – keys to take from
dict_
default (object, optional) – if specified uses default if keys are missing
cls (type, default=OrderedDict) – type of the returned dictionary.
- Returns
subset dictionary
- Return type
cls[A, B]
- SeeAlso:
dict_isect()
- similar functionality, but ignores missing keys
Example
>>> import ubelt as ub >>> dict_ = {'K': 3, 'dcvs_clip_max': 0.2, 'p': 0.1} >>> keys = ['K', 'dcvs_clip_max'] >>> subdict_ = ub.dict_subset(dict_, keys) >>> print(ub.repr2(subdict_, nl=0)) {'K': 3, 'dcvs_clip_max': 0.2}
-
ubelt.util_dict.
dict_union
(*args)[source]¶ Combines the disjoint keys in multiple dictionaries. For intersecting keys, dictionaries towards the end of the sequence are given precedence.
- Parameters
*args – a sequence of dictionaries
- Returns
OrderedDict if the first argument is an OrderedDict, otherwise dict
- Return type
Dict | OrderedDict
- SeeAlso:
collections.ChainMap()
- a standard python builtin data structure that provides a view that treats multiple dicts as a single dict. https://docs.python.org/3/library/collections.html#chainmap-objects
Example
>>> result = dict_union({'a': 1, 'b': 1}, {'b': 2, 'c': 2}) >>> assert result == {'a': 1, 'b': 2, 'c': 2} >>> dict_union(odict([('a', 1), ('b', 2)]), odict([('c', 3), ('d', 4)])) OrderedDict([('a', 1), ('b', 2), ('c', 3), ('d', 4)]) >>> dict_union() {}
-
ubelt.util_dict.
dict_isect
(*args)[source]¶ Constructs a dictionary that contains keys common between all inputs. The returned values will only belong to the first dictionary.
- Parameters
*args – a sequence of dictionaries (or sets of keys)
- Returns
OrderedDict if the first argument is an OrderedDict, otherwise dict
- Return type
Dict | OrderedDict
Notes
This function can be used as an alternative to
dict_subset()
where any key not in the dictionary is ignored. See the following example:>>> dict_isect({'a': 1, 'b': 2, 'c': 3}, ['a', 'c', 'd']) {'a': 1, 'c': 3}
Example
>>> dict_isect({'a': 1, 'b': 1}, {'b': 2, 'c': 2}) {'b': 1} >>> dict_isect(odict([('a', 1), ('b', 2)]), odict([('c', 3)])) OrderedDict() >>> dict_isect() {}
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ubelt.util_dict.
dict_diff
(*args)[source]¶ Constructs a dictionary that contains any of the keys in the first arg, which are not in any of the following args.
- Parameters
*args – a sequence of dictionaries (or sets of keys)
- Returns
OrderedDict if the first argument is an OrderedDict, otherwise dict
- Return type
Dict | OrderedDict
Todo
[ ] Add inplace keyword argument, which modifies the first dictionary inplace.
Example
>>> dict_diff({'a': 1, 'b': 1}, {'a'}, {'c'}) {'b': 1} >>> dict_diff(odict([('a', 1), ('b', 2)]), odict([('c', 3)])) OrderedDict([('a', 1), ('b', 2)]) >>> dict_diff() {} >>> dict_diff({'a': 1, 'b': 2}, {'c'})
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ubelt.util_dict.
find_duplicates
(items, k=2, key=None)[source]¶ Find all duplicate items in a list.
Search for all items that appear more than
k
times and return a mapping from each (k)-duplicate item to the positions it appeared in.- Parameters
items (Iterable[T]) – hashable items possibly containing duplicates
k (int, default=2) – only return items that appear at least
k
times.key (Callable[[T], Any], default=None) – Returns indices where key(items[i]) maps to a particular value at least k times.
- Returns
- List[int]]:
maps each duplicate item to the indices at which it appears
- Return type
dict[T
Example
>>> import ubelt as ub >>> items = [0, 0, 1, 2, 3, 3, 0, 12, 2, 9] >>> duplicates = ub.find_duplicates(items) >>> # Duplicates are a mapping from each item that occurs 2 or more >>> # times to the indices at which they occur. >>> assert duplicates == {0: [0, 1, 6], 2: [3, 8], 3: [4, 5]} >>> # You can set k=3 if you want to don't mind duplicates but you >>> # want to find triplicates or quadruplets etc. >>> assert ub.find_duplicates(items, k=3) == {0: [0, 1, 6]}
Example
>>> import ubelt as ub >>> items = [0, 0, 1, 2, 3, 3, 0, 12, 2, 9] >>> # note: k can less then 2 >>> duplicates = ub.find_duplicates(items, k=0) >>> print(ub.repr2(duplicates, nl=0)) {0: [0, 1, 6], 1: [2], 2: [3, 8], 3: [4, 5], 9: [9], 12: [7]}
Example
>>> import ubelt as ub >>> items = [10, 11, 12, 13, 14, 15, 16] >>> duplicates = ub.find_duplicates(items, key=lambda x: x // 2) >>> print(ub.repr2(duplicates, nl=0)) {5: [0, 1], 6: [2, 3], 7: [4, 5]}
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ubelt.util_dict.
group_items
(items, key)[source]¶ Groups a list of items by group id.
- Parameters
items (Iterable[A]) – a list of items to group
key (Iterable[B] | Callable[[A], B]) – either a corresponding list of group-ids for each item or a function used to map each item to a group-id.
- Returns
a mapping from each group id to the list of corresponding items
- Return type
dict[B, List[A]]
Example
>>> import ubelt as ub >>> items = ['ham', 'jam', 'spam', 'eggs', 'cheese', 'banana'] >>> groupids = ['protein', 'fruit', 'protein', 'protein', 'dairy', 'fruit'] >>> id_to_items = ub.group_items(items, groupids) >>> print(ub.repr2(id_to_items, nl=0)) {'dairy': ['cheese'], 'fruit': ['jam', 'banana'], 'protein': ['ham', 'spam', 'eggs']}
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ubelt.util_dict.
invert_dict
(dict_, unique_vals=True)[source]¶ Swaps the keys and values in a dictionary.
- Parameters
dict_ (Dict[A, B]) – dictionary to invert
unique_vals (bool, default=True) – if False, the values of the new dictionary are sets of the original keys.
- Returns
the inverted dictionary
- Return type
Dict[B, A] | Dict[B, Set[A]]
Notes
The must values be hashable.
If the original dictionary contains duplicate values, then only one of the corresponding keys will be returned and the others will be discarded. This can be prevented by setting
unique_vals=False
, causing the inverted keys to be returned in a set.Example
>>> import ubelt as ub >>> dict_ = {'a': 1, 'b': 2} >>> inverted = ub.invert_dict(dict_) >>> assert inverted == {1: 'a', 2: 'b'}
Example
>>> import ubelt as ub >>> dict_ = ub.odict([(2, 'a'), (1, 'b'), (0, 'c'), (None, 'd')]) >>> inverted = ub.invert_dict(dict_) >>> assert list(inverted.keys())[0] == 'a'
Example
>>> import ubelt as ub >>> dict_ = {'a': 1, 'b': 0, 'c': 0, 'd': 0, 'f': 2} >>> inverted = ub.invert_dict(dict_, unique_vals=False) >>> assert inverted == {0: {'b', 'c', 'd'}, 1: {'a'}, 2: {'f'}}
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ubelt.util_dict.
map_keys
(func, dict_)[source]¶ Apply a function to every key in a dictionary.
Creates a new dictionary with the same values and modified keys. An error is raised if the new keys are not unique.
- Parameters
func (Callable[[A], C] | Mapping[A, C]) – a function or indexable object
dict_ (Dict[A, B]) – a dictionary
- Returns
transformed dictionary
- Return type
Dict[C, B]
- Raises
Exception – if multiple keys map to the same value
Example
>>> dict_ = {'a': [1, 2, 3], 'b': []} >>> func = ord >>> newdict = map_keys(func, dict_) >>> print(newdict) >>> assert newdict == {97: [1, 2, 3], 98: []} >>> dict_ = {0: [1, 2, 3], 1: []} >>> func = ['a', 'b'] >>> newdict = map_keys(func, dict_) >>> print(newdict) >>> assert newdict == {'a': [1, 2, 3], 'b': []}
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ubelt.util_dict.
map_vals
(func, dict_)[source]¶ Apply a function to every value in a dictionary.
Creates a new dictionary with the same keys and modified values.
- Parameters
func (Callable[[B], C] | Mapping[B, C]) – a function or indexable object
dict_ (Dict[A, B]) – a dictionary
- Returns
transformed dictionary
- Return type
Dict[A, C]
Example
>>> dict_ = {'a': [1, 2, 3], 'b': []} >>> newdict = map_vals(len, dict_) >>> assert newdict == {'a': 3, 'b': 0}
Example
>>> # Can also use an indexable as ``func`` >>> dict_ = {'a': 0, 'b': 1} >>> func = [42, 21] >>> newdict = map_vals(func, dict_) >>> assert newdict == {'a': 42, 'b': 21} >>> print(newdict)
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ubelt.util_dict.
sorted_keys
(dict_, key=None, reverse=False)[source]¶ Return an ordered dictionary sorted by its keys
- Parameters
dict_ (Dict[A, B]) – dictionary to sort. The keys must be of comparable types.
key (Callable[[A], Any], optional) – customizes the sorting by ordering using transformed keys
reverse (bool, default=False) – if True returns in descending order
- Returns
new dictionary where the keys are ordered
- Return type
OrderedDict[A, B]
Example
>>> import ubelt as ub >>> dict_ = {'spam': 2.62, 'eggs': 1.20, 'jam': 2.92} >>> newdict = sorted_keys(dict_) >>> print(ub.repr2(newdict, nl=0)) {'eggs': 1.2, 'jam': 2.92, 'spam': 2.62} >>> newdict = sorted_keys(dict_, reverse=True) >>> print(ub.repr2(newdict, nl=0)) {'spam': 2.62, 'jam': 2.92, 'eggs': 1.2} >>> newdict = sorted_keys(dict_, key=lambda x: sum(map(ord, x))) >>> print(ub.repr2(newdict, nl=0)) {'jam': 2.92, 'eggs': 1.2, 'spam': 2.62}
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ubelt.util_dict.
sorted_vals
(dict_, key=None, reverse=False)[source]¶ Return an ordered dictionary sorted by its values
- Parameters
dict_ (Dict[A, B]) – dictionary to sort. The values must be of comparable types.
key (Callable[[B], Any], optional) – customizes the sorting by ordering using transformed values
reverse (bool, default=False) – if True returns in descending order
- Returns
new dictionary where the values are ordered
- Return type
OrderedDict[A, B]
Example
>>> import ubelt as ub >>> dict_ = {'spam': 2.62, 'eggs': 1.20, 'jam': 2.92} >>> newdict = sorted_vals(dict_) >>> print(ub.repr2(newdict, nl=0)) {'eggs': 1.2, 'spam': 2.62, 'jam': 2.92} >>> newdict = sorted_vals(dict_, reverse=True) >>> print(ub.repr2(newdict, nl=0)) {'jam': 2.92, 'spam': 2.62, 'eggs': 1.2} >>> newdict = sorted_vals(dict_, key=lambda x: x % 1.6) >>> print(ub.repr2(newdict, nl=0)) {'spam': 2.62, 'eggs': 1.2, 'jam': 2.92}
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ubelt.util_dict.
odict
¶ alias of
collections.OrderedDict